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Water quality, General, Water treatment – WaterFurnace Envision Hydronic User Manual

Page 8: Contaminated water

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8

NSKW INSTALLATION MANUAL

General

NSKW heat pumps may be successfully applied in a wide
range of residential and light commercial applications. It
is the responsibility of the system designer and installing
contractor to ensure that acceptable water quality is
present and that all applicable codes have been met in
these installations. Failure to adhere to the guidelines in the
water quality table could result in loss of warranty.

Water Treatment

Do not use untreated or improperly treated water.
Equipment damage may occur. The use of improperly
treated or untreated water in this equipment may result in
scaling, erosion, corrosion, algae or slime. The services of a
qualified water treatment specialist should be engaged to
determine what treatment, if any, is required. The product
warranty specifically excludes liability for corrosion,
erosion or deterioration of equipment.

The heat exchangers and water lines in the units are copper
or cupronickel tube. There may be other materials in the

Material

Copper

90/10 Cupronickel

316 Stainless Steel

pH

Acidity/Alkalinity

7 - 9

7 - 9

7 - 9

Scaling

Calcium and

Magnesium Carbonate

(Total Hardness)

less than 350 ppm

(Total Hardness)

less than 350 ppm

(Total Hardness)

less than 350 ppm

Corrosion

Hydrogen Sulfide

Less than 0.5 ppm (rotten egg

smell appears at 0.5 ppm)

10 - 50 ppm

Less than 1 ppm

Sulfates

Less than 125 ppm

Less than 125 ppm

Less than 200 ppm

Chlorine

Less than 0.5 ppm

Less than 0.5 ppm

Less than 0.5 ppm

Chlorides

Less than 20 ppm

Less than 125 ppm

Less than 300 ppm

Carbon Dioxide

Less than 50 ppm

10 - 50 ppm

10 - 50 ppm

Ammonia

Less than 2 ppm

Less than 2 ppm

Less than 20 ppm

Ammonia Chloride

Less than 0.5 ppm

Less than 0.5 ppm

Less than 0.5 ppm

Ammonia Nitrate

Less than 0.5 ppm

Less than 0.5 ppm

Less than 0.5 ppm

Ammonia Hydroxide

Less than 0.5 ppm

Less than 0.5 ppm

Less than 0.5 ppm

Ammonia Sulfate

Less than 0.5 ppm

Less than 0.5 ppm

Less than 0.5 ppm

Total Dissolved Solids (TDS)

Less than 1000 ppm

1000 - 1500 ppm

1000 - 1500 ppm

LSI Index

+0.5 to -0.5

+0.5 to -0.5

+0.5 to -0.5

Iron Fouling

(Biological Growth)

Iron, FE

2

+ (Ferrous)

Bacterial Iron Potential

< 0.2 ppm

< 0.2 ppm

< 0.2 ppm

Iron Oxide

Less than 1 ppm, above this

level deposition will occur

Less than 1 ppm, above this

level deposition will occur

Less than 1 ppm, above this

level deposition will occur

Erosion

Suspended Solids

Less than 10 ppm and filtered

for max. of 600 micron size

Less than 10 ppm and filtered

for max. of 600 micron size

Less than 10 ppm and filtered

for max. of 600 micron size

Threshold Velocity

(Fresh Water)

< 1.8 m/sec

< 1.8 m/sec

< 1.8 m/sec

NOTES: Grains = ppm divided by 17

mg/L is equivalent to ppm

2/22/12

Water Quality

building’s piping system that the designer may need to take
into consideration when deciding the parameters of the
water quality.

If an antifreeze or water treatment solution is to be used,
the designer should confirm it does not have a detrimental
effect on the materials in the system.

Contaminated Water

In applications where the water quality cannot be held to
prescribed limits, the use of a secondary or intermediate
heat exchanger is recommended to separate the unit from
the contaminated water.

The following table outlines the water quality guidelines
for unit heat exchangers. If these conditions are exceeded,
a secondary heat exchanger is required. Failure to supply
a secondary heat exchanger where needed will result in a
warranty exclusion for primary heat exchanger corrosion or
failure.

Water Quality Guidelines